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Messoris a diverse genus of Myrmicinae with 168 extant species and subspecies. In the Mediterranean, some of its taxa historically were classified as members of theMessor instabilisgroup (sensu Santschi), of which 19 are known from the eastern Mediterranean. Here, theMessor semirufuscomplex of the Balkan Peninsula that assembles a distinct subsection of members of theinstabilisgroup is defined and treated. In total, five species are recorded, including three that are new.Messor atanassoviiAtanassov, 1982 is redescribed and confirmed for Bulgaria (Thracian Plain, Struma, and Mesta Valley, Pirin Mt., and Eastern Rhodopi) and Greece (Epirus, Ionian Islands, Central and Eastern Macedonia, and Thraki). Three species are described as new to science:Messor danaesSalata, Georgiadis & Borowiec,sp. nov.(Cyclades: Serifos),Messor kardamenaeSalata & Borowiec,sp. nov.(Dodecanese: Kos, Nisyros, Rhodes, and Tilos), andMessor venerisSalata, Georgiadis & Borowiec,sp. nov.(Cyclades: Milos). The fifth member of the complex,Messor creticusBorowiec & Salata, 2019, maintains its status of Cretan endemic. 

Abstract The classification of ants (Hymenoptera: Formicidae) has progressed in waves since the first 17 species were described by Linnaeus in the 1758 edition of Systema Naturae. Since then, over 18,000 species-rank names have accumulated for the global myrmecofauna, of which ~14,260 living and ~810 fossil species are valid. Here, we provide a synopsis of ant biodiversity and review the history and classification of the family, while highlighting the massive growth of the field in the new millennium. We observe that major transformation has occurred for ant classification due to advances in DNA sequencing technologies, model-based hypothesis testing, and imaging technologies. We therefore provide a revised and illustrated list of diagnostic character states for the higher clades of Formicidae, recognizing that vastly more work is to be done. To facilitate discussion and the systematic accumulation of evolutionary knowledge for the early evolution of the ants, we suggest an informal nomenclatural system for the higher clades of ants, based on names currently in use and a set of names that have been democratically selected by the authors. To guide future work on ant systematics, we summarize currently available databases and present perspectives on regions in need of biodiversity exploration, challenges facing the field, and the future of ant taxonomy. 

Background The Malagasy Region, one of the top megadiversity regions, hosts one of the highest numbers of endemic and threatened organisms on earth. One of the most spectacular examples of ant radiation on the island has occurred in the hyperdiverse genus Pheidole . To this date, there are 135 described Madagascan Pheidole divided into 16 species-groups, and 97% of Malagasy species are endemic to the island. This study is a taxonomic revision of the Pheidole megacephala group, one of only two species-groups comprising a combination of native, endemic taxa and widely distributed introduced species. Methods The diversity of the Malagasy members of the megacephala group was assessed via application of qualitative morphological and DNA sequence data. Qualitative, external morphological characteristics ( e.g., head shape, gaster sculpture, body colouration) were evaluated in order to create a priori grouping hypotheses, and confirm and improve species delimitation. Mitochondrial DNA sequences from cytochrome oxidase I (COI) gene fragments were analyzed to test the putative species previously delimited by morphological analyses. Results We recognize three species belonging to the megacephala group: P. megacephala (Fabricius, 1793), P. megatron Fischer & Fisher, 2013 and P. spinosa Forel, 1891 stat. nov. Pheidole spinosa is redescribed and elevated to the species level. The following names are recognized as junior synonyms of P. spinosa : P. megacephala scabrior Forel, 1891 syn. nov. , P. picata Forel, 1891 syn. nov. , P. picata gietleni Forel, 1905 syn. nov. , P. picata bernhardae Emery, 1915 syn. nov. , and P. decepticon Fischer & Fisher, 2013 syn. nov. The results are supplemented with an identification key to species for major workers of the megacephala group, high-resolution images for major and minor workers, and comments on the distribution and biology of all Malagasy members of the group. Our study revealed that Pheidole megacephala , a species listed among the 100 worst invasive species worldwide, occurs in both natural and disturbed sites in the Malagasy region. The two remaining members of the megacephala group, most likely endemic to this region, are also present in anthropogenic habitats and often co-occur with P. megacephala . It appears that the Malagasy members of the group are generalists and dominant in anthropogenic habitats. Additionally, we documented the presence of supermajors in colonies of P. spinosa —a phenomenon previously not known for this group. 

Madagascar, one of the top megadiversity regions, hosts one of the highest numbers of endemic and threatened organisms on earth. One of the most spectacular examples of ant radiation on the island has occurred in the hyperdiverse genus Pheidole . To this date, there are 117 described Madagascan Pheidole divided into 16 species-groups, and 97% of them are endemic to the island. Only two of these species-groups contain widely distributed invasive species in addition to native, endemic taxa: megacephala , and fervens species-groups. Here we revise the fervens species-group and discuss updated distribution records of its introduced members on Madagascar. We recognize six species belonging to this group, including five new to science: Pheidole ampangabe sp. nov., P . arivo sp. nov., P . comosa sp. nov., P . indica Mayr, P . mamirapiratra sp. nov., and P . mena sp. nov. Detailed descriptions are supplemented with measurements, diagnoses, identification key, high-resolution images for major and minor worker, and comments on distribution and biology. 

The present study represents a taxonomic revision of the P. bessonii species-group from Madagascar. Eighteen members of this group are recognized and described, and an illustrated identification key to this group is also presented. One name is raised to species level: P. decollata Forel, 1892 stat. nov. We also redescribe worker castes and designate lectotypes for P. bessonii Forel, 1891, P. decollata Forel, 1892, P. grallatrix Emery, 1899, P. madecassa Forel, 1892, and P. oswaldi 1891. The following 13 new species are described: Pheidole antsahabe sp. nov., Pheidole atsirakambiaty sp. nov., Pheidole clara sp. nov., Pheidole flammea sp. nov., Pheidole flavodepressa sp. nov., Pheidole mantadioflava sp. nov., Pheidole maro sp. nov., Pheidole ovalinoda sp. nov., Pheidole similis sp. nov., Pheidole tenebrovulgaris sp. nov., Pheidole uranus sp. nov., Pheidole voreios sp. nov., Pheidole zirafy sp. nov.